ATTEMPTS TO FIND NEW ANTIMALARIALS. V. STUDIES IN THE

Publication Date: March 1946. ACS Legacy Archive. Note: In lieu of an abstract, this is the article's first page. Click to increase image size Free fi...
0 downloads 0 Views 276KB Size
Download PDF
[CONTRIBUTION FROM THQ

DIVISIONOF

PHYSIOLOGY,

NATIONAL INSTITUTE OF

HEALTH]

ATTEMPTS TO FIND NEW ANTIMALARIALS. V. STUDIES IN THE ACRIDINE SERIES. 9-N-HETEROCYCLIC ACRIDINES AND 9-ACRIDYLSULFANILAMIDES' LEWIS J. SARGENT

AND

LYNDON SMALL

Received November 16, 1946

With the synthesis of Atabrine and the demonstration of its high antimalarial activity a little over a decade ago ( l ) , interest in compounds of related structure has expanded tremendously. Significantly, nearly all the effort expended in these researches was concerned with derivatives of 9-aminoacridine. This was principally due to the fact that only the 9-N-substituted aminoacridinea exhibited plasmodicidal activity to any appreciable degree. By far, the bulk of the acridine compounds studied carried aminoalkamino groups of the type -NH(CH&N& in the 9-position. Some notable exceptions were the heterocyclic substituted acridines recently described by Burckhalter (2). However, even in these latter cases the 9-amino nitrogen was part of an aliphatic and not a heterocyclic system. In view of this it was thought of interest to prepare certain substituted 9-aminoacridines in which the nitrogen atom of the amino group was an integral part of a heterocyclic system, viz. 6-methoxy-1,2,3,4tetrahydroquinoline. In addition, the introduction of certain substituted sulfanilamido groups in the 9-position of the acridine molecule was carried out in order to determine the effect of these groups upon antimalarial activity. With the exception of 9-chloroacridine, where anhydrous ether was employed as a solvent, 6-methoxytetrahydroquinoline was condensed with the variously substituted acridines in phenol at 90-100". The condensation of 3,9-dichloro7-methoxyacridme with sulfanilamide, sulfapyridine, and sulfathiazole gave best results in n-amyl alcohol at 120" yielding, in all cases, the corresponding hydrochlorides. With 2-aminothiazole, phenol proved t o be the better solvent. Antimalarial activity towards P. gallinaceurn (chick infection) (3) wm found present, in small degree, in compounds SN2 2762, 2667, and 2514 at the respective maximum tolerated doses. The remainder of the compounds were devoid of this property. EXPERIMENTAL*

9-(6-MethoxytetrahydroquinoZino)acridine (SN-2716). A solution of 5 g. of 9-chloroacridine (4) in 225 ml. of anhydrous ether was treated with 7.6 g. (2 moles) of 6-methoxytetrahydroquinoline' in 50 ml. of anhydrous ether and the mixture kept a t room temperature 1 The work described in this paper was done under a transfer of funds, recommended by the Committee on Medical Research, from the Office of Scientific Research and Development to the National Institute of Health. The Survey Numbers (SN) are the identification numbers assigned by the Malaria Survey Office of the National Research Council. * Analyses by Ass't Chemists L. R. Modlin and E. A. Garlock; m.p.'s are uncorrected. 4 Prepared by high-pressure hydrogenation over copper chromite catalyst of 6-methoxyquinoline; for preparation of latter see Skrsup, Monatsh., 6, 760 (1885). 175

176

LEWIS J. SARGEXT AND LYNDON SMALL

for 60 hrs. The resulting orange solution was filtered from a small amount of insoluble matter, washed with water, dried over sodium sulfate and concentrated to small volume i n vacuo. The residual, dark colored, oily crystals were covered with 40 ml. of ethanol and kept in the refrigerator for 12 hours, yielding a bright orange, crystalline product which was filtered, washed with a little cold ethanol, and dried; 5.2 g. (65%). Three recrystallizations from acetone affordedstout, orange prisms, m.p. 190-191.5'. Anal. Calc'd for C ~ ~ H ~ OC, N 81.15; ~ O : H, 5.92. Found: C, 81.35; H, 5.95. S-Chloro-9-(6-methoxytetrahydr~~quinolino)acridine(SN-2637). A mixture of 8.1 g. of 3,9-dichIoroacridine (5), 5.85 g. (1.1 moles) of 6methoxytetrahydroquinoline, and 74 g. of phenol was heated in a n oil-bath at 90-100" for 2 hours. After cooling, the melt was poured into 300 ml. of cold 10% sodium hydroxide and the resulting colored syrup taken up in ether. The latter solution wai~washed with water, dried over sodium sulfate, and concentrated to small volume in vacuo, yielding 2.6 g. (crop I) of dark red prisms, m.p. 192194". The concentrated mother liquor was freed of excess 6-methoxytetrahydroquinoline by steam distillation. The residual reddish-purple syrup, after trituration with ether and seeding, afforded 3.2 g. (crop 11) cof crystalline material. After one recrystallization from methanol 2.4 g. of dark red prisms, m.p. 191-193", was recovered. Total yield of pure material 5 g. (42%). Anal. Calc'd for C2aHl&lN2CI: C, 73.69; H, 5.11. Found: C, 73.43; H, 5.:!7. 7-Methoxy-9-(6-methorytetrahydroquinolino)acr~dine (SN-2634). Twelve and seventenths grams of 7-methoxy-9-chloroacridine (4), 9.4 g. (1.1 moles) of 6-methoxytetrahydroquinoline, and 80 g. of phenol were heated together at 90-100" for 2 hours. The colored melt was poured into 350 ml. of cold 10% sodium hydroxide and the product extracted with ether. After washing the latter solution successively with dilute sodium hydroxide and water, concentration (vacuo) yielded a syrup from which the excess B-methoxytetrahydroquinoline was removed by steam distillation. The resulting oil was taken up in ether and dried. From the ether a semi-crystalline mass was obtained which, after one trituration with 30-60" petroleum ether, followed by recrystallization from 50% methanol, yielded 8.5 g. of a bright orange powder of indefinite melting range 118-135". Upon crystallization from absolute methanol the product separated as reddish-orange prisms which, however, were soon contaminated by the appearance of a by-product which crystallized in clusters of amber prisms. Owing to the marked difference in color as well as in crystalline form, the two substances were rebdily separated mechanically. Recrystallization of 6.6 g. of the orange prisms from methrinol gave 5.7 g. of pure material, m.p. 138-140". (2,77.81; H, 5.99. Anal. Calc'd for CZ~HZZNZO,: Found: C, 77.69; H, 6.03. The amber colored by-product ((1.19.) after recrystallization from methanol, meIted at 151-153" and was identified as tho intermediate 7-methoxy-9-phenoxyacridineby mixed m.p. with a n authentic specimen, as well as by analysis. S-Ch2oro-7-methoxy-9-(6-methozytetrahy~roquinolino)ucr~dine (SN-2762). Seven and one(5) was condensed with 4.6 g. (1.1 moles) tenth grams of 3,9-dichloro-7-methoxya~ridine of 6-methoxytetrahydroquinolinein 45 g. of phenol as described above. The cooled, colored reaction mixture was poured into 200 ml. of 10% sodium hydroxide and the precipitated gum taken up in ether. From the dried ethereal solution there separated, on concentration in vacuo, a dark orange, crystalline powder which was recrystallized from ethanol, yielding 4.3 g. (crop I) of bright orange plates, m.p. 168-170'. The alcoholic mother liquor yielded, upon further concentration, 3.5 g. of less pure product which was recrystallized from acetone affordtng 2.5 g. {crop 11) of relatively pure material, m.p. 161-164" (total yield, 6.8 g. or 65%?). Crops I and I1 were combined and recrystallized from ethanol yielding 5.7 g. of pure product, m.p. 172-174". Anal. Calc'd for C21H21C1K:102:C , 71.20; H, 5.23. Found: C, 71.35; H, 5.45.

ATTEMPTS TO FIND ANTIMALARIALS.

V

177

S-Chloro-7-nzethoxy-9-(8-a~~iino-6-~nethox~quinolino)acridine (SN-2667). The condensation of 7 g. of 3,9-dichloro-7-methoxyacridinewith 4.4 g. (1 mole) of 6-methoxy-8-aminoquinoline6 in 45 g. of phenol was carried out as previously described. The cooled melt was poured into 250 ml. of 10% sodium hydroxide and the yellow precipitate collected. It wm successively washed by decantation with 5% sodium hydroxide then with water and finally air-dried. The crude material was purified by dissolving in 450 ml. of a hot mixture of chloroform-methanol (60:40) and concentrating to the point of incipient crystallization. After 24 hours (room temperature), 6.3 g. (60%) of bright yellow needles was collected; m.p. 244-245'. Anal. Calc'd for C?d&sCINs02: C, 69.16; H, 4.35. Found: C, 69.43; H, 4.29. S-Chlo~o-7-methozy-9-(I-aminothiazolyl)acridine (SN-1440). Five grams of 3 ,g-dichloro7-methoxyacridine was heated with 1.8 g. (1 mole) of 2-aminothiazole in 32 g. of phenol a t 90-100" for 2 hours. The dark red melt was cooled, poured into 250 ml. of cold 10% sodium hydroxide and the red precipitate collected and washed several times with water by decantation. The yield of crude, air-dried product was 5.5 g. (86%). Recrystallization from ethanol afforded 2.3 g. of dark red microprisms, m.p. 246-247' (decomp.). Anal. Calc'd for C1rH&lNsOS: C, 59.73; H, 3.54. Found: C, 59.41; H, 3.99. N4-[9-(S-Chloro-7-methoxyacridyl)lsulfanilamide hydrochloride (SN-188). A mechaniand 4.35 g. (1 mole) of sulcally stirred mixture of 7 g . of 3,9-dichloro-7-methoxyacridine fanilamide in 50 ml. of n-amyl alcohol was heated at 120' (oil-bath) for 2.25 hours. The bright orange, microcrystalline precipitate was filtered, triturated with hot (100') amyl alcohol, washed mrith ether, and dried; the yield was 9.2 g. (80%). Recrystallization from a large volume of ethanol, in the presence of a few drops of alcoholic HC1 to prevent hydrolysis of the salt, afforded minute, bright orange plates, m.p. 305-307" (decomp.). Anal. Calc'd for CzoH1LhNsOsS: C, 53.34; H, 3.81. Found: C, 53.00; H, 3.90. N~-(d-Thiazolyl)-N~[9-(S-chloro-7-methoxyacridylf~sulfanilamide hydrochloride (SN-2514). with 6.42 g. (1 mole) of sulfaThe condensation of 7 g. of 3,9-dichloro-7-methoxyacridine thiazole in 50 ml. of n-amyl alcohol was carried out as described in the preceding preparation. The washed and dried product consisted of a yellow-orange powder, 11 g. (81%). It was recrystallized from a large volume of ethanol, in the presence of a little alcoholic HC1 and recovered as golden-yellow leaves, m.p. 301-303'. Anal. Calc'd for CtaHlsClzNaOsSz: C, 51.78; H, 3.40. Found: C, 51.71; N,3.46. ~~-(~-Py~idyl)-~~[9-(~-ch~o~o-7-methoxyacridy~)]su~fani~amide hydrochloride (SN-2515). and 6.27 g. (1mole) of sulfapyridine were Seven grams of 3,9-dichloro-7-methoxyacridine condensed in 50 ml. of n-amyl alcohol in the above manner. The bright yellow, crystalline product,, 10 g. (75%) crystallized from ethanol in minute, yellow, rhombic plates, m.p. 302-303' (decomp.). Anal. Calc'd for CesHc~ClzNiOsS:C, 56.93; H, 3.82. Found: C, 56.99; H, 3.96. SUMBURY

The synthesis of several N-substituted heterocyclic as well as certain 9acridylsulfanilamides is described. A few of these compounds showed slight antimalarial activity. BETIiESDA

14, MD.

5 Prepared by reduction (SnCllfHCl) of 6-methoxy-8-nitroquinoline; for latter see Chem. ,4bsts., 22, 1216 (1928).

178

LEWIS J. SARGENT AND LYNDON SMALL

REFERENCES (1) MIETSZCH AND MAUSS,Klin Woch., 12, 1276 (1933); Angew. Chem. 47, 633 (1934). (2) BIJRCKHALTER AND CO-WORKERS, J . Am. Chem. Soc., 66,2012 (1943);see also QUINNAND ROBINSON, J . Chem. ~ I o c . , 555 (1943). (3) COATNEY AND COOPER; EDDY, This laboratory, private communication. (4) MAGIDSON AND GRIGOROWSKII, Ber., 66, 866 (1933). (5) ~ ~ A G I D S O NGRIGOROWSEII, , AND GALPERIN, J . Gen. Chem. (U.S.S.R.), 8, 56 (1938); see Chem. Absts., 32, 5405 (1938).